Female terminal

ABSTRACT

A female terminal has a structure that does not allow molten solder to close a pipe section into which male terminal is inserted. Notched recessed sections (9) are oppositely formed at the lower ends of the side faces (3a and 3a) of a female terminal (1). The female terminal (1) is locked by horizontally opening locking legs (7) protruded from the rear surface of a printed wiring board (11) from an inserting hole (12). In such a state, the rear surface of the board is dipped in molten solder (21). When the board (11), is pulled up from the molten solder (12), the solder (21) closing the pipe section (2) in a bridge-like form is turned to droplets and drops from the recessed section (9), because the wettability of the pipe section (2) with the solder (21) is lowered and the adhesion is weakened due to the recessed sections (9). The remaining molten solder (21) attaches to the peripheral edge of the end of the pipe section (2) other than the recessed sections (9) due to the surface tension and solidifies.

TECHNICAL FIELD

This invention relates to an improvement of a female terminal.

BACKGROUND ART

When, in order to secure a female terminal a to a mounting (inserting)hole c formed in a printed wiring board b, the board is dipped in amolten solder with a male-terminal inserting cylindrical portion dsuitably locked, sometimes as shown in FIG. 4 the molten solder e on theedge of the mounting hole spreads to close the cylindrical portion d ina bridge-like form, and solidifies.

In view of the foregoing, an object of the invention is to provide afemale terminal which is so designed in structure that the moltenterminals will never close the male-terminal inserting cylindricalportion.

DISCLOSURE OF THE INVENTION

The foregoing object of the invention has been achieved by the provisionof a female terminal which, with a male terminal inserting cylindricalportion thereof fixedly inserted in a mounting hole formed in a printedwiring board, is secured to the mounting hole; in which, according tothe invention,

the end part of the cylindrical portion has at least a pair of notchedrecesses which are confronted with each other.

The above-described female terminal has at least a pair of notchedrecesses. Therefore, the molten solder 21, which otherwise spreads in abridge-like form to close the cylindrical portion, is lowered inconformability; that is, its sticking force is decreased, so that it isdropped from the notched recesses. The remaining molten solder on thecylindrical portion is shifted towards the edges of the cylindricalportion except for the notched recesses by the surface tension thereof,and solidified. Therefore, the cylindrical portion, into which the maleterminal is to be inserted, is not closed by the solder, yet the femaleterminal is fixedly mounted on the printed wiring board. This featurecontributes to the improvement of productivity.

BRIEF DESCRIPTION OF THE DRAWINGS

FIG. 1 is a perspective view of a female terminal 1, which constitutes apreferred embodiment of the invention.

FIG. 2. is a sectional view showing the female terminal 1 which ismounted on a printed wiring board.

FIG. 3 is a perspective view of a cylindrical portion of onemodification of the female terminal of the invention.

FIG. 4 is a sectional view of a conventional female terminal.

PREFERRED EMBODIMENT OF THE INVENTION

A female terminal, a preferred embodiment of the invention, will bedescribed with reference to the accompanying drawings. FIG. 1 is aperspective view of the female terminal 1 according to the invention;FIG. 2 is a sectional view showing the female terminal 1 which ismounted on a printed wiring board; FIG. 3 is a perspective view of acylindrical portion of one modification of the female terminal of theinvention; and FIG. 4 is a sectional view of a conventional femaleterminal. The female terminal 1 is formed on a progressive pressmachine. That is, a conductive metal hoop material is punched into apart in a predetermined form, and the part thus obtained is bent. Thisbending work forms a vertically elongated cylindrical portion 2, intowhich a male terminal 10 is inserted.

The side surfaces 3 and 3 which are extended longitudinally in such amanner as to confront with each other, have clamping elastic pieces 4and 4, respectively. The clamping elastic pieces 4 and 4 are formed asfollows: That is, the clamping elastic pieces 4 and 4 have clampingportions 5 and 5 at the middle, and end portions 6 and 6 extendedupwardly from the clamping portions 5 and 5. The clamping elastic pieces4 and 4 are bent towards each other in such a manner that the distancebetween the clamping elastic pieces 4 and 4 are gradually smallertowards the clamping portions 5; i.e., it is smallest at their clampingportions 5 and 5, and the end portions 6 and 6 are inclined outwardly. Apair of side surfaces 3 and 3 of the cylindrical portion 2 which areconfronted with each other, have two pairs of locking legs 7 (fourlocking legs 7) extended from their edges, respectively, in such amanner that they are confronted with each other. The remaining sidesurfaces 3a and 3a of the cylindrical portion have a pair of wing-shapedpieces 8 and 8, respectively, at a level corresponding to the thicknessof a printed wiring board 11 (described later). In addition, the sidesurfaces 3a and 3a have notched recesses 9 and 9 in their lower endportions, respectively, in such a manner that the recesses 9 and 9 areconfronted with each other.

The above-described female terminal 1 is installed as follows: The lowerend of the cylindrical portion is inserted into a mounting hole 12formed in the printed wiring board 11 until the lower ends of thewing-shaped pieces 8 are abutted against the edge portion of themounting hole 12. Under this condition, the locking legs 7 which areprotruded from the rear surface of the printed wiring board 11, are benthorizontally, to lock the female terminal 1. Under this condition, therear surface of the printed wiring board 11 is dipped in a molten solder21. In this operation, the molten solder sticks onto the locking legs 7and spreads into the lower part of the cylindrical portion 2, thusclosing the lower opening of the cylindrical portion 2 in a bridge-likeform. The parts other than the mounting hole which need no solderingprocess has been subjected to solder resist printing.

Thereafter, the printed wiring board 11 is pulled up from the moltensolder 21. In this operation, since the cylindrical portion has thenotched recesses 9, the molten solder 21 with respect to the cylindricalportion 2 is lowered in conformability; that is, its sticking force isdecreased, so that it is dropped from the notched recesses 9. Theremaining molten solder 21 on the cylindrical portion 2 is shiftedtowards the edges of the cylindrical portion 2 except for the notchedrecesses 9 and 9 by the surface tension thereof, and solidified.Therefore, the cylindrical portion 2, into which the male terminal 10 isto be inserted, is not closed by the solder, yet the female terminal 11is fixedly mounted on the printed wiring board 11. This featurecontributes to the improvement of productivity.

In addition, the same notched recess 9 may be formed between the lockinglegs 7 of the side surfaces 3 and 3.

What is claimed is:
 1. A female terminal to be secured into a mounting hole formed in a printed wiring board, comprising:a male-terminal inserting portion; a clamping elastic piece at a first side surface of the male-terminal inserting portion; a plurality of locking legs formed at an end part of the male-terminal inserting portion for engaging with a bottom surface of the printed wiring board; a plurality of wing-shaped pieces extended along a second side surface of the male-terminal inserting portion for engaging with a top surface of the printed wiring board; and wherein the end part of the male-terminal inserting portion includes at least a pair of notched recesses.
 2. The female terminal according to claim 1, wherein the plurality of locking legs extend from the first side surface of the male-terminal inserting portion, and said at least a pair of notched recesses are formed on the second side surface of the male-terminal inserting portion.
 3. The female terminal according to claim 1, wherein a distance between a bottom part of the plurality of wing-shaped pieces and a top part of the plurality of locking legs is equal to a depth of the printed wiring board so that the female terminal can be engaged securely with the printed wiring board.
 4. The female terminal according to claim 1, further comprising at least a pair of clamping elastic pieces confronting each other.
 5. The female terminal according to claim 1, wherein the plurality of locking legs are bent horizontally so as to be capable of being engaged with the bottom surface of the printed wiring board by using a molten solder.
 6. The female terminal according to claim 5, wherein said at least a pair of notched recesses each have a size large enough so that the molten solder does not fill said at least a pair of notched recesses. 